The common basic characteristics of the four types of shuttleless loom are the separation of the weft yarn package from the shuttle or the fact that it only carries a small number of weft yarns and replaces the large and heavy shuttle with a small and light weft feeder, which provides advantages for high-speed weft insertion. conditions of. In the supply of weft yarns, bobbin packages are directly used, and weft insertion devices enter the weft insertion mechanism, freeing the loom from frequent weft filling operations. Therefore, the use of shuttleless weaving machines is of great significance for increasing fabric variety, adjusting fabric structure, reducing fabric defects, improving fabric quality, reducing noise, and improving working conditions. The shuttleless loom has a high speed and is usually 4-8 times more efficient than a shuttle loom. Therefore, the application of a shuttleless loom in a large area can greatly increase labor productivity.

As the structure of shuttleless looms is becoming more and more sophisticated, a wide range of materials are selected, and processing precision is getting higher and higher. With the development of science and technology in the world, electronic technology and microelectronics control technologies have gradually replaced mechanical technologies. The manufacture of shuttleless looms is metallurgy and machinery. Combining multiple disciplines such as electronics, chemical engineering, and fluid power, it integrates electronic technology, computer technology, precision machinery technology, and textile technology into one high-tech product.